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Chemical Fume Hood

The Safety and Compliance division maintains the Chemical Fume Hood Surveillance Program as part of the university’s effort to comply with the OSHA Laboratory Standard. A campus-wide laboratory fume hood survey is conducted on an annual basis. References and guides for the safe operation of chemical fume hoods are provided in this section.

The regulations for chemical fume hood evaluations and safety are from the Occupational Safety and Health Administration (OSHA), 29 CFR 1910.94 and 29 CFR 1926.57 and can be located at http://www.osha.gov through their links to Laws and Regulations and then to Standards.

Chemical fume hoods are equipped with a fan in the duct work that generates air flow from the front to the back of the hood. Air escapes through slots or baffles at the back of the hood. The air flow captures vapors and prevents them from diffusing into the room. Hoods are designed so that the air velocity at the plane of the sash is optimal for capturing vapors when the sash opening is no greater than the maximum operating position (for vertical opening sashes) or the test opening (for horizontal opening sashes). For vertical sliding sashes, the maximum operating height of the sash is typically 18 inches; a larger opening limits the performance of the hood. The opening should be minimized on hoods with horizontal sliding sashes and the user should work with one sash directly in front of them with their arms on either side of the sash as shown in Figure 1 below. Maximum sash openings are identified using blue stickers shown below in Figure 2. On combination hoods that include both the vertical and horizontal sashes, it is best practice to put the vertical sash all the way down before opening and using the horizontal sashes. Opening the sash beyond the optimal position will dramatically lower the air velocity and allow vapors to escape into the room. Blocking the airflow with large equipment in the hood can also lead to insufficient vapor capture and potential exposure, as shown below in Figure 3 below.

Figure 1: Proper use of a hood with horizontal sashes. Sash is between researcher and work being performed in the hood.

Figure 2: The blue arrow sticker to the left indicates the maximum operating height for a hood with a vertical sash (moves up and down). The blue arrow sticker on the right indicates the sash test locations for hoods with horizontal sashes (moves side to side).

Figure 3: In the left image, the airflow to the bottom slot is blocked, allowing vapors to escape into the room. In the right image, air flows underneath the elevated equipment, improving efficiency of the hood.

A person standing in front of the hood also disrupts the airflow, generating eddy currents. Vapors within those currents may escape into the room. Eddy currents drop off at about six inches into the hood.

Figure 4: Top view of air currents created when someone is working in front of a hood.

A campus-wide Chemical Fume Hood Surveillance Program is coordinated by the Occupational Safety and Health Department (OSH). Fume hood face velocity is measured annually by OSH. If the velocity falls within the established operating range established by the campus of 80 and 120 linear feet per minute (fpm), or within the operating range established by the manufacturer and verified through as-installed containment testing, the hood will receive a green Chemical Fume Hood Evaluation tag bearing the date of the inspection as shown below in Figure 5. Approved operating flow range and maximum approved sash opening are listed on the white Chemical Fume Hood Operating Parameters sticker that is placed on the fume hood and shown below in Figure 6.

If research work in your fume hoods is critical, the Facilities & Services (F&S) Sheet Metal Shop can provide annual testing and immediate repair by requesting a Preventative Maintenance work order through the F&S Service Office.

If the face velocity is outside the range listed on the Chemical Fume Hood Operating Parameters a WARNING sign will be posted on the sash and the previous year's green tag will be removed. If a WARNING sign is present, contact your facility manager for Repair, OSH and DRS cannot initiate repair of failing hoods. Do not use hazardous material in the hood until it has been repaired and is working properly. The F&S Sheet Metal Shop will re-test the hood as part of the repair work. A copy of the WARNING sign is shown below in Figure 7.

The hood can function properly only if its integrity is not compromised. A hood with missing side panels or cracked sashes will not provide adequate exposure control.

Because the status of the chemical fume hood can change anytime, continuous air flow indicators are recommended. New chemical fume hoods must be equipped with air flow monitoring devices which will alert the user if there is a problem with air flow. For older hoods without air flow monitoring devices, a simple visible test to ensure flow into chemical fume hoods and other ventilating devices is to tape a tissue to the hood and note its movement when the exhaust fan is turned on.

To reduce the risk of exposure as much as possible, adhere to the following work practices:

Open the sash or sashes only as much as is required to perform your work comfortably. Never open it beyond the indicated position when hazardous chemicals are present. Position the sash to maximize protective shielding.

Verify that the chemical hood is drawing air. Check the flow monitor if present, or hold a Kimwipe in the hood and check its movement. Note: Do not let go of the wipe. Wipes sucked into the ductwork will block airflow and may cause damage requiring expensive repairs.

Perform all work at least 6 inches into the hood and do not store items near the opening where they interrupt airflow and pose a spill hazard.

NEVER put your head in the hood when hazardous chemicals are present.

Do not position large equipment or containers of chemicals in the back of the hood where they block airflow. Elevate equipment by placing it on blocks, jack stands, or legs so that air can flow underneath to the bottom baffle slot. To store items in the back of the hood, install shelves to elevate containers (see Fig 3). Keep inside the hood only what needs to be there and remove everything that can be stored outside.

Route service connections under the airfoil and secure all loose and dangling electrical cords, tubes and tubing with tie-raps, twist ties, or rubber bands.

Discontinue work and close all containers with hazardous chemicals if the alarm sounds. If possible, mute the alarm, put an out-of-order sign on the hood, and contact your department business office to arrange for repair.

When the hood is not in use, keep the sash at a six-inch opening. This will significantly reduce energy consumption and the sash will act as a shield in the event of an unexpected release. A small opening is required to serve as air exhaust for the laboratory.

Ductless fume hoods are not recommended due to limitations on chemical use within the hoods and required maintenance. OSH and F&S do not provide support for ductless fume hoods. Verification of proper operation and maintenance/repair is solely the responsibility of the owning department.